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Intrinsic nonlinearity and method of disturbed observations in inverse problems of celestial mechanics

Avdyushev, Victor A.

Celestial mechanics and dynamical astronomy, 2017-12, Vol.129 (4), p.537-552 [Periódico revisado por pares]

Dordrecht: Springer Netherlands

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  • Título:
    Intrinsic nonlinearity and method of disturbed observations in inverse problems of celestial mechanics
  • Autor: Avdyushev, Victor A.
  • Assuntos: Aerospace Technology and Astronautics ; Asteroids ; Astrophysics and Astroparticles ; Celestial mechanics ; Classical Mechanics ; Computer simulation ; Dynamical Systems and Ergodic Theory ; Geophysics/Geodesy ; Ill-conditioned problems (mathematics) ; Inverse problems ; Mathematical models ; Nonlinearity ; Orbit determination ; Orbital mechanics ; Orbits ; Original Article ; Physics ; Physics and Astronomy ; Regression analysis ; Statistical analysis ; Stochastic methods ; Uncertainty
  • É parte de: Celestial mechanics and dynamical astronomy, 2017-12, Vol.129 (4), p.537-552
  • Descrição: Orbit determination from a small sample of observations over a very short observed orbital arc is a strongly nonlinear inverse problem. In such problems an evaluation of orbital uncertainty due to random observation errors is greatly complicated, since linear estimations conventionally used are no longer acceptable for describing the uncertainty even as a rough approximation. Nevertheless, if an inverse problem is weakly intrinsically nonlinear, then one can resort to the so-called method of disturbed observations (aka observational Monte Carlo). Previously, we showed that the weaker the intrinsic nonlinearity, the more efficient the method, i.e. the more accurate it enables one to simulate stochastically the orbital uncertainty, while it is strictly exact only when the problem is intrinsically linear. However, as we ascertained experimentally, its efficiency was found to be higher than that of other stochastic methods widely applied in practice. In the present paper we investigate the intrinsic nonlinearity in complicated inverse problems of Celestial Mechanics when orbits are determined from little informative samples of observations, which typically occurs for recently discovered asteroids. To inquire into the question, we introduce an index of intrinsic nonlinearity. In asteroid problems it evinces that the intrinsic nonlinearity can be strong enough to affect appreciably probabilistic estimates, especially at the very short observed orbital arcs that the asteroids travel on for about a hundredth of their orbital periods and less. As it is known from regression analysis, the source of intrinsic nonlinearity is the nonflatness of the estimation subspace specified by a dynamical model in the observation space. Our numerical results indicate that when determining asteroid orbits it is actually very slight. However, in the parametric space the effect of intrinsic nonlinearity is exaggerated mainly by the ill-conditioning of the inverse problem. Even so, as for the method of disturbed observations, we conclude that it practically should be still entirely acceptable to adequately describe the orbital uncertainty since, from a geometrical point of view, the efficiency of the method directly depends only on the nonflatness of the estimation subspace and it gets higher as the nonflatness decreases.
  • Editor: Dordrecht: Springer Netherlands
  • Idioma: Inglês
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  • Realização: ABCD-USP USP   Logos de Redes Sociais: Freepik

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